Recurrent Hydronephrosis and Spontaneous Renal Rupture Caused by Lymphoplasmacytic Inflammation in a Cat

Case Report Veterinarni Medicina, 66, 2021 (02): 80–86

https://doi.org/10.17221/153/2020-VETMED

Recurrent hydronephrosis and spontaneous renal rupture caused by lymphoplasmacytic inflammation in a cat

Junyoung Kim1,2, Dongkeun Oh1, Junho Cho1, Seongjun Kim1, Junghee Yoon2*

1BOM Animal Hospital, Seoul, Republic of Korea 2College of Veterinary Medicine and the Research Institute for Veterinary Science, Seoul National University, Seoul, Republic of Korea *Corresponding author: [email protected]

Citation: Kim J, Oh D, Cho J, Kim S, Yoon J (2021): Recurrent hydronephrosis and spontaneous renal rupture by lymphoplasmacytic inflammation in a cat. Vet Med-Czech 66, 80–86.

Abstract: A seven-year-old male cat that was previously diagnosed with – and treated for – left hydronephrosis due to suspected idiopathic proteinaceous materials in the renal pelvis, presented with a short history of anorexia and vomiting. The abdominal ultrasound revealed bilateral hydronephrosis, and the intravenous pyelography showed a moderate amount of free fluid in the retroperitoneal space at 48 hours. After the nephrectomy, the gross examination of the right kidney revealed a very thin capsule with urine leakage, and the right renal pelvis showed small, black deposits. The histopathology of the right kidney revealed hydronephrosis with compression atrophy, necrosis of the renal cortex/medulla, and a moderate lymphoplasmacytic inflammation. The crystallographic analysis revealed that the black deposits were composed of 100% protein and no minerals. The cat was diagnosed with hydronephrosis and spontaneous renal rupture caused by proteinaceous pelvic materials, secondary to the idiopathic renal lymphoplasmacytic inflammation. In addition to revealing the possibility that immune-mediated renal disease can induce spontaneous renal rupture in cats, this case report demonstrates the utility of imaging for diagnosing and monitoring hydronephrosis, detecting urine leakage, and planning surgery.

Keywords: computed tomography; crystallography; feline; intravenous pyelography; renal; ultrasonography

Hydronephrosis refers to the dilatation of the renal solidified blood (DSB) calculi, and retroperitoneal pelvis and calyces due to a renal or postrenal uri- fibrosis after a renal transplantation (Vanden et al. nary obstruction that induces the progressive atro- 2005; D’lppolito et al. 2006; Ragni and Fews 2008; phy of the renal parenchyma (Rawlings et al. 2003). D’Anjou et al. 2011; Zaid et al. 2011; Cohen et al. Hydronephrosis in cats is caused by a ureteral or ure- 2012; Foster and Pinkerton 2012; Lee et al. 2014; thral blockage by urinary tract calculi, inflammation, Selgas et al. 2014). Blood clots in the urinary tract neoplasia, or retroperitoneal masses resulting in ex- are rare and may result from urinary tract calculi, traluminal ureteral compression (D’lppolito et al. infections, inflammation, neoplasia, trauma, clotting 2006; Ragni and Fews 2008; D’Anjou et al. 2011; Zaid disorders, or idiopathic causes (Rawlings et al. 2003; et al. 2011; Cohen et al. 2012; Foster and Pinkerton DiBartola 2005; Vanden et al. 2005). 2012; Selgas et al. 2014; Evans and Fowlkes 2016). A spontaneous renal rupture is defined as the Less common causes of hydronephrosis include ob- rupture of the renal parenchyma due to the renal structions induced by blood clots in the renal pelvis pathology (Zhang et al. 2017). Possibly reflecting or ureters after a renal biopsy, ectopic ureters, dried the dysregulation of the immune system, a lympho-

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https://doi.org/10.17221/153/2020-VETMED cytic-plasmacytic inflammation is characterised titis and bilateral renal diverticular calculi. After by the infiltration of lymphocytes and plasma cells the cystitis was resolved, the cat’s bilateral renal into certain tissues, particularly in the gastrointes- calculi were monitored with an abdominal radiog- tinal tract and nasal or oral cavities (Willard 2003; raphy, abdominal ultrasound, and laboratory tests Hall and German 2005; Simpson 2005). However, every month thereafter at a hospital. At the nine- hydronephrosis and a spontaneous renal rupture month follow-up, the laboratory findings showed due to lymphoplasmacytic inflammation in the kid- increased creatinine [274.3 μmol/l; reference range ney have not been reported in veterinary medicine. (RR): 70.8–159.3 μmol/l]. The total protein (8.3 g/l; We document the rare case of a seven-year-old RR: 5.7–7.8 g/l), albumin (3.6 g/l; RR: 2.3–3.5 g/l), cat with recurrent hydronephrosis and a spontane- and calcium (1 079.6 μmol/l; RR: 778.7–1 053.1 ous renal rupture with a suspected blood clot for- μmol/l) concentrations were mildly elevated. On the mation in the renal pelvis caused by an idiopathic abdominal radiography, the location, size, and num- lymphoplasmacytic inflammation in the kidney. ber of the renal calculi remained unchanged; however, the left kidney was slightly enlarged (2.64 times the length of the second lumbar vertebral body) Case presentation relative to the right kidney (2.48 times the length of the second lumbar vertebral body). The abdominal A six-year-old castrated male Korean Shorthair ultrasound revealed a moderate-to-severe dilation cat weighing 6.0 kg first presented with haematu- of the left renal pelvis and a mild dilation of the ria in January 2019 and was diagnosed with cys- left proximal ureter, with amorphous and echo-

Figure 1 Figure 1B

(A) (B)

Figure 1C Figure 1D

(C) (D) Figure 1. Abdominal ultrasound findings in a cat with recurrent hydronephrosis and spontaneous renal rupture Longitudinal (A) and transverse (B) images of the left hydronephrotic kidney with amorphous and echogenic materials in the left renal pelvis at the nine-month follow-up. Dorsal (C) and transverse (D) images of the right kidney at five months after the first surgery showing hydronephrosis due to the amorphous, echogenic materials in the right renal pelvis along which it was asymmetrically dilated (white arrow) and a renal calculus (D)

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https://doi.org/10.17221/153/2020-VETMED genic material in the pelvis (Figure 1A,B). The cat sample showed an increased urinary protein/creati- was diagnosed with left hydronephrosis with radio- nine ratio (UPC) (0.8; RR: < 0.2) and predominantly lucent, amorphous, and echogenic material in the red blood cells (RBCs; > 50/high power field) on the renal pelvis. The differential diagnoses included microscopic examination of the sediment. The cysto- blood clots, haemorrhage, inflammatory debris, centesis sample showed a normal UPC (0.1; RR: < 0.2) DSB calculi, or mucus plugs in the left renal pelvis. and no mucus, bacteria, or casts. Both samples were The cat was hospitalised for observation and treat- devoid of crystals or minerals. The cat recovered well ment, including intravenous (i.v.) fluids (22.5 ml/h, and was discharged after five days. 5% dextrose and sodium chloride; CJ Healthcare, The hydronephrosis did not recur for approxi- Eumseong, Republic of Korea), amoxicillin-cla- mately four months. The cat presented at seven vulanic acid (13.75 mg/kg, q12h, Amocla; Kuhnil years of age with a one-day history of anorexia and Pharmaceutical Co., Cheonan, Republic of Korea), vomiting. metronidazole (15 mg/kg, q12h, Metrynal; Dai Han The laboratory testing revealed a mildly increased Pharmaceutical Co., Ansan, Republic of Korea), and globulin (5.3 g/l; RR: 2.7–5.2 g/l), severe azotae- famotidine (0.5 mg/kg, q12h, Gaster; Dong-A ST, mia, including an increased blood urea nitrogen Seoul, Republic of Korea). After four days of treat- (6 911.5 μmol/l), creatinine (929.2 μmol/l) and phos- ment, the hydronephrosis was resolved and the cat phorus (9.4 mg/l; RR: 2.6–6.0 mg/l), and metabolic was discharged. However, the cat was readmitted acidosis (pH = 7.248). However, the right and left kid- seven days later due to a 2-day history of anorexia, neys were enlarged to 2.74 and 2.65 times the length vomiting, and diarrhoea. The subsequent abdominal of the second lumbar vertebral body, respectively. The ultrasound revealed recurrent, moderate-to-severe abdominal ultrasound showed moderate right hydro- left hydronephrosis with amorphous and echogenic nephrosis and recurrent left hydronephrosis second- pelvic material, a small amount of free fluid in the ary to the amorphous and echogenic pelvic material retroperitoneal space around the left kidney, and in the renal pelvis (Figure 1C). The right hydrone- a mild dilation with corrugation of the intestinal phrosis was accompanied by a fluid-dilated, tubular loops. The laboratory tests showed leukocytosis structure connected to the renal pelvis toward the (25.7 × 109/l; RR: 5.5–19.5 × 109/l), increased cre- periphery of the right renal parenchyma (Figure 1D). atinine (247.8 μmol/l; RR 70.8–159.3 μmol/l), and Moreover, a small amount of free fluid with increased metabolic acidosis (pH = 7.242; RR: 7.32–7.44). The fat echogenicity was identified around both kidneys, cat was hospitalised and administered fluids and suggesting pyelonephritis. The cat was hospitalised an antibiotic therapy. Over next five days, the white for a fluid and antibiotic therapy. Within six days, blood cell (WBC) count and creatinine levels re- all the laboratory findings had returned to normal turned to normal, and the vomiting ceased. Despite and the cat had stopped vomiting and regained its improvement in the pelvic dilation, the hydrone- appetite. However, despite the ongoing treatment, phrosis on the abdominal ultrasound and anorexia the cat became anorexic again and developed an in- persisted. An intravenous pyelography (IVP) showed creased creatinine concentration (247.8 μg/l) on day a normal bilateral renal excretory function. An ex- seven. The abdominal ultrasound revealed persistent ploratory laparotomy was performed to directly moderate bilateral hydronephrosis. Computed to- identify the cause of the left hydronephrosis and mography (CT) imaging with pre- and post-contrast revealed a slightly dilated left renal pelvis, a normal was performed to investigate the hydronephrosis and right kidney and bilateral ureters, and no obstructive the dilated tubular structure connected to the re- material. On the pyelocentesis, approximately 0.8 ml nal pelvis of the right kidney (Figure 2A). The post- of a mildly hazy urine was obtained using a 26-gauge contrast images revealed a very thin capsule on the needle. The abdominal ultrasound revealed allevia- right kidney, and the dilated tubular structure was tion of the hydronephrosis and a reduction in the identified as an asymmetric, severely dilated renal amorphous material in the renal pelvis. An ultra- pelvis (Figure 2B). No other obstructions were noted. sound-guided cystocentesis was performed using An IVP was then performed for 48 h showing good a 23-gauge needle, and a urinalysis was performed initial nephrographic opacification of both kidneys. on both samples. The specific gravities of the pyelo- However, the right kidney showed no evidence of py- centesis and cystocentesis samples were 1.022 and elographic opacification during the procedure, and 1.021 (RR: > 1.035), respectively. The pyelocentesis the left kidney showed a delayed pyelogram with hy-

82 Case Report Veterinarni Medicina, 66, 2021 (02): 80–86

https://doi.org/10.17221/153/2020-VETMED

Figure 2A Figure 2B

(A) (B)

Figure 2. Pre-contrast (A) and post-contrast (B) transverse computed tomography (CT) images of the right renal pelvis in a cat with recurrent hydronephrosis and spontaneous renal rupture The pre-contrast image shows a right renal diverticular calculus (A). The post-contrast CT image shows hydronephrosis of the right kidney with a thin capsule (white arrow), accompanied by an asymmetric and severe dilation of the pelvis (B) dronephrosis and hydroureter (Figure 3A,B). A mod- space around the right kidney was newly identified erate amount of free fluid in the retroperitoneal (Figure 3C,D). This fluid was also seen on the abdom-

Figure 3B Figure 3A

(A) (B)

Figure 3C Figure 3D

(C)(C) (D)

Figure 3. Intravenous pyelography at 24 h (A, B) and 48 h (C, D) in a cat with recurrent hydronephrosis and spontaneous renal rupture Bilaterally, good initial nephrographic opacification is shown; the right kidney shows no pyelographic opacification until 48 hours. The left kidney shows a delayed pyelogram with hydronephrosis and hydroureter during the procedure. A moderate amount of free fluid in the retroperitoneal and peritoneal spaces is newly identified at 48 hours (C, asterisk)

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https://doi.org/10.17221/153/2020-VETMED inal ultrasound. The ultrasound-guided abdominal DISCUSSION fluid analysis revealed that the creatinine concentration in the abdominal fluid was higher (1 681.4 μg/l) Our case involved a seven-year-old cat with than that in the serum (16 mg/l suggesting the pres- persistent and marked bilateral hydronephro- ence of a uroabdomen. An exploratory laparotomy sis associated with amorphous, echogenic pelvic was performed to detect the urine leakage from the materials with no shadowing or mineralisation thin right renal capsule. During surgery, a moderate- identified on the diagnostic imaging. In such cas- to-severe amount of abdominal fluid was suctioned; es, an exploratory laparotomy can help directly a thin capsule with vascularisation, congestion, and identify the pelvic material. Although there was an irregularly coarse parenchymal surface adjacent a 5-month interval between the first and second to the right renal pelvis was identified. Urine leak- surgeries for the left and right kidneys, respectively, age was present (Figure 4A), and the proximal lu- the hydronephrosis on both sides was attributed men of the right ureter showed a mild dilation with to the same cause because of their similar imag- palpable, small, and soft deposits. A right nephrec- ing characteristics. The predominance of RBCs tomy was performed. The gross examination of the on the cytology at the time of the first surgery and right kidney revealed several small, black deposits the protein composition of the deposits in the re- in the right renal pelvis and proximal ureteral lu- nal pelvis affirmed our presumption that the de- men (Figure 4B). The histopathology of the right posits were renal blood clots with necrosis. The kidney revealed hydronephrosis with compression lack of haematuria or cloudy urine on the gross atrophy, necrosis of the renal cortex/medulla, and examination prompted our consideration of other a moderate lymphoplasmacytic inflammation. The aetiologies. Most mucus plugs observed in cats crystallographic analysis showed that the deposits are composed of large quantities of matrices with were composed of 100% protein and no minerals. varying amounts of minerals, and fewer than The cat was hospitalised after the surgery, and ab- 10% of plugs lack crystals (Houston et al. 2003). dominal fluid was again detected on the abdominal Hence, we ruled out mucus plugs. DSB calculi are ultrasound on the third day, with no definitive cause radiolucent and do not appear as discrete calculi identified. The owner decided to discontinue treat- on an abdominal ultrasound (Westropp et al. 2006; ment and requested to take the cat home, and it suc- Novak and Craig 2011). However, unlike gelatinous cumbed to the disease after 10 days. blood clots, these calculi are very firm and stone-

Figure 4A Figure 4B

(A) (B)

Figure 4. The right kidney and renal pelvis of a cat with recurrent hydronephrosis and spontaneous renal rupture after the right nephrectomy This was accompanied by urine leakage (A, white arrow). A substantial amount of small, black deposits (100% protein composition) could be seen in the right renal pelvis (B, white arrows)

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https://doi.org/10.17221/153/2020-VETMED like (Westropp et al. 2006). Therefore, DSB calculi dronephrosis and renal rupture. If a specific cause were less likely to be present in our case, because cannot be identified from test results, an immune- the pelvic material was soft when palpated during mediated disease should be tested by biopsy, when surgery. In addition, the hydronephrosis showed possible. If a biopsy is infeasible, treatment with a spontaneous resolution with fluid and antibiotic corticosteroids and a dietary change should be in- therapy during hospitalisation, and the left hydro- stituted, and the cat’s response should be closely nephrosis improved after the pyelocentesis during monitored. the first exploratory laparotomy. We presumed the material to be renal blood clots caused by an idiopathic lymphoplasmacytic inflammation because Conflict of interest there was no history of abdominal surgery or trauma; moreover, chronic renal disease, blood clotting The authors declare no conflict of interest. disorders, and other inflammations or infections in the urinary tract were excluded by the imaging and laboratory examinations, including the sym- REFERENCES metric dimethylarginine test and urinalysis. Our case shows that progressive hydronephrosis Cohen L, Shipov A, Ranen E, Bruchim Y, Segev G. Bilateral can result in spontaneous renal rupture and identi- ureteral obstruction in a cat due to a ureteral transitional fies the unique characteristics of hydronephrosis cell carcinoma. Can Vet J. 2012 May;53(5):535-8. with radiolucent, amorphous, non-shadowing, and D’Anjou MA, Bedard A, Dunn ME. Clinical significance of echogenic materials on diagnostic tests. We fur- renal pelvic dilatation on ultrasound in dogs and cats. ther demonstrated that the right renal rupture re- Vet Radiol Ultrasound. 2011 Jan-Feb;52(1):88-94. sulted from a lymphoplasmacytic inflammation, D’lppolito P, Nicoli S, Zatelli A. Proximal ureteral ectopia atrophy, and necrosis of the renal parenchyma due causing hydronephrosis in a kitten. J Feline Med Surg. to progressive hydronephrosis. In addition, while 2006 Dec;8(6):420-3. the moderate ascites that recurred 3 days after the DiBartola SP. Renal disease: Clinical approach and labora- right nephrectomy could be attributed to the spon- tory evaluation. In: Ettinger SJ, Feldman EC, editors. taneous rupture of the left kidney; this could not Textbook of veterinary internal medicine. 6th ed. St. Louis: be confirmed because the owner refused further Elsevier Saunders; 2005. p. 1722-3. examinations of the cat. If the presence of a lym- Evans D, Fowlkes N. Renal leiomyosarcoma in a cat. J Vet phoplasmacytic inflammation in the kidney had Diagn Invest. 2016 May;28(3):315-8. been confirmed, we could have improved the Foster JD, Pinkerton ME. Bilateral ureteropelvic junction cat’s condition or prolonged its life with dietary stenosis causing hydronephrosis and renal failure in an modification (e.g., hypoallergenic diet) and the ad- adult cat. J Feline Med Surg. 2012 Dec;14(12):938-41. ministration of high-dose corticosteroids or im- Hall EJ, German AJ. Diseases of the small intestine. In: Et- munosuppressive drugs (Willard 2003; Zaid et al. tinger SJ, Feldman EC, editors. Textbook of veterinary 2011; Zhang et al. 2017). internal medicine. 6th ed. St. Louis: Elsevier Saunders; Although the diagnostic imaging modalities 2005. p. 1367-72. could not definitively confirm the causative mate- Houston DM, Moore AEP, Favrin MG, Hoff B. Feline ure- rial for the hydronephrosis, they helped to diagnose thral plugs and bladder uroliths: A review of 5484 submis- and monitor the hydronephrosis, detect the urine sions 1998–2003. Can Vet J. 2003 Dec;44(12):974-7. leakage, and plan the surgery. Our findings suggest Lee N, Choi M, Keh S, Oh Y, Seo J, Choi H, Kim H, Yoon J. that blood clots or a proteinaceous material should Bilateral congenital ureteral strictures in a young cat. Can be considered as differential diagnoses in cats pre- Vet J. 2014 Sep;55(9):841-4. senting with an upper urinary tract obstruction due Novak JM, Craig LE. Pathology in practice. Hydronephro- to radiolucent, amorphous, and echogenic mate- sis and intrapelvic blood nephroliths with acute tubular rial with no shadowing. The continuous monitor- degeneration and end-stage nephropathy. J Am Vet Med ing with an ultrasound and CT is important in such Assoc. 2011 Apr 1;238(7):863-5. cases. The rapid surgical removal of clots or the Ragni RA, Fews D. Ureteral obstruction and hydronephrosis injection of thrombolytic agents such as strepto- in a cat associated with retroperitoneal infarction. J Feline kinase into the clots may prevent progressive hy- Med Surg. 2008 Jul;10(3):259-63.

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Received: July 26, 2020 Accepted: October 7, 2020